JPS60185545A - Method and apparatus for connecting metal denture member anddental synthetic resin - Google Patents

Abstract

To apply a silicon oxide adhesion-promoting layer to a metal prosthesis part or frame, for subsequent application of a dental plastic thereon, the prosthesis is subjected to flame hydrolysis derived from a flame hydrolysis burner (11) which has a silicon compound in vapor or gas form applied thereto in addition to a carbon-containing combustion gas, such as propane and air, the prosthesis part or frame being passed through the flame from the burner in the forward third thereof, the burner flame cone having, in operation, a length (L) of between 15 to 20 cm, a gas stream speed of about 1 m/sec., and wherein the length (L) of the cone exceeds the spacing distance (D) of the farthest part of the prosthesis from the mouth of the burner by only up to about 25%. For fine adjustment of the cone, a tinting substance can be added to the flame.

Description

[Detailed Description of the Invention] Industrial Field of Application The present invention provides adhesives containing silicon and oxygen for dental prosthetic parts (hereinafter referred to as "denture parts etc.") such as metal samurai parts. The present invention relates to an apparatus for coating with a layer, the adhesive layer being arranged in a holding device spaced from the silicon dioxide source.

Furthermore, the present invention also relates to a method of bonding a metal denture member or the like to a dental synthetic resin.

The problem of improvement is not new. Indeed, above i
It has been developed to apply an adhesive layer containing silicon x-oxide.

A corona discharge device is used for this purpose.

This plasma is exposed to a glow discharge while maintaining a pressure of 0.0,/33 to 0.11 mm IJ bar.
5iqiC)! J, -rt-+, 7-1 Chiyv
, 5v of silicon compound is added.

U.S. Patent No. 1t, 3A II, ? From issue 3/,
It is known to coat metal denture parts with a ζi silicon adhesive layer. For coating, magnetron sputtering devices operating at radio frequencies are recommended. The device operates at a pressure of lθ-3 millibar. Silicon oxide has a high purity, however, and these known devices require significant equipment costs, especially in expensive equipment.

However, this also applies to the denture part made of a ring member metal alloy - the arm.

Means for solving the problemThis challenge for devices of the type initially characterized is:
According to the invention, the sources of silicon and oxygen are at least one
flame hydrolysis burners, the burners being arranged at a distance from denture club 1 to a maximum lSO, the length of the flame being at least /! rows, maximum 0θ silk, and this burner also has a connecting branch for the metered supply of oxidizable silicon compounds in the state of gaseous mass; The retaining device and the flame hydrolyzing burner are driven in such a way that they can move relative to each other during the coating, and the retaining device and the flame hydrolysis burner are driven so that they can move relative to each other during the coating. is solved by.

During this time, the flame cone of the flame hydrolysis burner can be attached to the flame cone of the flame hydrolysis burner. It is advantageous. In this case, the denture part t □ is sufficiently cooled during the circulation of the carousel before a new thin silicon-containing adhesive layer is applied. Time exists. In addition, it should be noted that the cooling device supplied with air or a mixture of air and water is preferably provided within an angle range of 1.200 to θ0 with respect to the flame hydrolysis burner. It can also be biased by 900 degrees and placed near the carousel, for example. In order to ensure better adjustment of the prosthesis with respect to the flame hydrolysis burner, the carousel contributes to a better orientation of the height with the flame hydrolysis burner. The best adjustment is therefore achieved if the flame hydrolysis burner is fixed to a rotatable and movable support member.

This is because by rotating this support member, both its lateral and height adjustments can be made and set.

is also improved by a pivotable connection with the support member.

In a device formed according to the invention, it is recommended that the flame hydrolysis burner be arranged as follows, ie, the flame runs essentially horizontally.

Precise adjustment of the combustion flame is advantageously achieved in that the size of the opening of the nozzle of the flame hydrolysis burner is varied. In the case of burners with slotted nozzles, this can be done by means of a freely movable plate (so-called blade green). In the case of burner nozzles with a nozzle opening with a circular cross section, this is done by sliding or returning a conically or spherically designed closure.

The flame hydrolysis burner is advantageously driven by a mixture of fuel gas and air, 1 in which case propane gas is preferably used as the fuel gas. The oxidizable η element compound*h+ is the gun turret compound, compound: 1λCf.

SiH or organosilicon compounds such as organosilanes, organosilaxanes, or mixtures thereof can be used. Unless the oxidizable silicon compound is present in the form of gaseous aggregates, this compound should be converted into vapor form before being fed to the flame hydrolysis burner. It may be advantageous to supply the oxidizable silicon compound present in the form of a gaseous mass to the flame hydrolysis burner via the same connecting branch as the fuel gas and the air for the mixture of air. ,Do you get it.

To achieve a reproducible coating process, the flame cone of the flame hydrolysis burner is coated with a colorant, e.g.
It is expedient to be colored by addition of compounds or B compounds.

It is expedient for the addition of the colorant to be fed via the same feed branch through which the oxidizable silicon compound is fed into the flame hydrolysis burner.

The device according to the invention is provided with ventilation openings, e.g. slits, in order to allow the passage of free room air through the chamber, the retaining device which it has under normal circumstances. It is effective to place it in a room with
◇In that case, it was found that it is also effective to place the flame hydrolysis burner in an additional room that is in the same room. Form No. #, JA of this invention device
f,? Precipitation of silicon dioxide as described in No. 7 also allows the precipitation of a carbon-containing SiOx layer, in which carbon is preferably bonded to silicon. It is desirable for the hydrocarbon to be present in the form of a hydrocarbon residue. The latter adhesive layer, compared to the silicon dioxide layer, not only guarantees better adhesion values between the layers, but also the absence of gaps in the permanent oral environment. This is particularly remarkable since it is also ensured under stress due to temperature changes and mechanical stress acting.

The best results are achieved with an adhesive layer containing precipitated silicon dioxide, but the carbon-containing lid of the adhesive layer! ~4tO heavy axe.

The flame hydrolysis burner is fed through the front I/J of the flame cone of the flame hydrolysis burner, in which case the flame hydrolysis burner is driven by a mixture of carbon-containing fuel gas and air; Advantageously, the oxidizable silicon compounds mentioned above are incorporated and mixed. As a sandblasted material, the average particle size is ';2. It was found that corundum, which is izoμ, is effective.

DESCRIPTION OF THE PREFERRED EMBODIMENTS A denture unit is arranged in a chamber l whose ceiling, its bottom as well as its intermediate wall /I are provided with a ventilation opening λ. Although the denture bracket is fixed to the retaining device, this retaining device can also be designed to be flexible in order to be inserted into the through hole and to improve the tightening adjustment therein. The rotation axis of the carousel is rotated by the motor l as shown by the arrow. Flame hydrolysis burner // Flame cone 10 for the best denture part V
The carousel 3 is adjustable in height, as shown by the arrow saw, and is restrained at the desired height by means of an adjusting screw 13. The rotational axis of the carousel 3 can, however, also be arranged essentially horizontally with respect to the flame hydrolysis burner //. In this embodiment, the flame hydrolysis burner // is connected to the separation wall 15
is arranged in the punched mesh partition /4' of the chamber 1 and can be moved back into the additional chamber /A of chamber I when the coating device is at rest. The perforated mesh partition /41 is in this case advantageously closed by a cover part 17 which is movable upwardly and downwardly, as indicated by the arrow /g. The flame hydrolysis burner // is supplied with air via the supply conduit /q and also via the connecting branch 20.
A fuel gas, preferably propane gas, is respectively supplied, in which case the air is mixed with the oxidizable silicon compound in the form of a gaseous mass. The flame hydrolysis burner II is fixed to the holder here via the connecting link 21, and is rotated by hand to this holder -1λ as shown by the arrow 23, and is rotated by hand as shown by the two arrows. It can be moved forward or backward as desired. The best operating condition is then constrained by adjusting screw λj. As can be seen from the figure, the flame hydrolysis burner// has a maximum interval between coating passes of up to ISO. The length of the flame cone 10 is at least /! rOtm,
The maximum is 200 parrots. In this embodiment, one cooling device R-6 is installed inside the chamber l and offset by 900 degrees with respect to the direction of the flame cone IO.
/ is installed in its operating position in the cut-out mesh bulkhead / of the separating wall /S, and the best adjustment is made by adjusting the height of the carousel and/or by adjusting the retaining section. Movement in the hole in the carousel S (height adjustment and/or
or rotation) and/or by rotation and/or advancement of the holder-1 is transferred into a slow rotational movement, for example J Or, p, m. Thereafter, the supply of air and fuel gas as well as the supply of oxidizable silicon compounds is carried out to the flame hydrolysis burner, and the flame hydrolysis burner is
The flame cone 10 of the flame cone 10 is treated with sufficient heat during rotation before being exposed to an even thinner silicon oxide-containing adhesive layer for precipitation on the flame cone IO. It is adjusted to a certain degree of cooling. However, ξ cooling is still performed on the denture member J by the cooling device 2B.
The cooling air that reaches this can also be improved by a mixture of air and water. For this purpose, a cooling device roller is installed on the vertical wall 3 extending with sufficient space. After the adhesive layer containing a thickness of silicon oxide has been applied, the supply of air and fuel gas to the flame hydrolysis burner // is shut off, and the burner // is connected to the partial chamber I.
A, punched out/ejected and further processed as is known, for example, from US Pat. No. 44', 7.7/. That is, a layer containing, for example, 1 silane is bonded to a commercially available dental synthetic resin. can be used in place of the flame hydrolysis burner // according to FIG. 1 and is fixed to the connecting link, 2/, via three connecting battens.

The flame hydrolysis bath shown in Figure 2 is g/
The flame hydrolysis burner /l shown in the figure differs in that it is constructed as a double burner, in which case the two burner heads Jf are arranged one above the other, as shown. There is. However, it is also possible to arrange both burner heads 2g side by side.

The flame hydrolysis burner / /' shown in FIG.
It differs from the flame hydrolysis burner according to the figure in that it has a nozzle opening 29 with a number of outlet nozzle openings 30. The number of nozzle openings 30 or double nozzle openings can be varied by means of the closing body 31.

Since the present invention has the above-described structure and operation, it provides a simple method for coating a dental synthetic resin on a denture part made of a noble metal or a base metal, and a method for implementing the same. This has the excellent effect of providing a simple and low-friction device.

[Brief explanation of the drawing]

1 shows a longitudinal section through an embodiment of the coating device according to the invention, FIG. 2 shows a schematic representation of a flame hydrolysis burner with double burner heads, and FIG. 3 shows an adjustable Holding device having a nozzle opening; S... Carousel; lO
...Flame cone; ll...Burner; llI...Aperture; 16...Additional chamber; KoO...Connecting branch pipe;, 21
... Link; 2.2... Support body; Roller... Cooling device; Cog... Burner head. Continued from page 1 Inventor Hans-Jürgen te Doilerb [phase] Inventor Stellafen Opa Dovskye 0 Inventor Albert Schmitz Todoi ■ Inventor Rolf Young Democratic Republic of Dogerc, 6900 Jena, Profesz Saul Irahimstrasse 23 Federal Republic of Germany, aZO,=<t Homburg, Gartenfurtstrasse n Federal Republic of Germany, 6380 Battle of Homburg, Heucherhammerstrasse 139 Federal Republic of Germany, 6380/Kudtken Homburg, Soilberustrasse 19

Claims (1)

[Claims] 1. When a dental synthetic resin is bonded to a metal denture component, etc., an adhesive layer containing silicon dioxide is first deposited on the denture shaft, and a silane-containing layer is deposited on top of this adhesive layer. is applied, and a dental synthetic resin is applied on this silane-containing layer.
A flame supplied with a silicon compound containing a carbon-containing adhesive layer (by weight) is guided through the front l/3 of the hydrolytic burner, and if the burner is carbon-containing. A method according to claim 1 or claim 3, wherein the method is driven by a mixture of combustion gas and air. H. At least one 8-chloride silicon source is placed in the metal denture part φ-coating device having a chemical layer spaced apart from the holding device, and the length of the flame cone is at least isom is the maximum −〇θnishiki, and also,
This burner I has a connecting branch (1
), and this burner aυ has a gas flow velocity of at most /ff%/
'8eC, and the length of the flame cone exceeds the distance between the flame hydrolysis burner η and the 1st denture part gauze by at most -3%, and the length of the flame cone is set to exceed the distance between the flame hydrolysis burner η and the 1st denture part gauze by at most -3%, and the length of the flame cone is set to exceed the distance between the flame hydrolysis burner a and are driven such that they can move relative to each other during coating. (f) The device according to claim 1, wherein the holding device (4) is rotatably supported on a shaft. The device according to claim 1 or 2, wherein the holding device (4) is fixed to the carousel (5). 7. The device according to claim 6, wherein the carousel (5) is adjustable in height. The apparatus according to any one of claims 9 to 7, wherein the flame hydrolysis burner αυ is fixed to a rod so that its height can be adjusted. Flame hydrolysis burner←η is connected to a rotatable support (2
8. A device according to any one of claims 9 to 7, wherein the device is fixed to the holder. 10. The device according to claim 3 or d, which has a link (2υ) between the flame hydrolysis burner α and the rod or support @. Flame cone (1
11. Device according to any one of claims 7 to 10, characterized in that 1 is embodied in an essentially horizontal extension. 11. The device according to claim 1I, wherein the flame hydrolysis burner I has at least one nozzle opening (1) whose size can be varied. ll xo0~1200 for flame hydrolysis burner I
2. A device according to claim 1, wherein the cooling device is biased within an angular range of . llA Claims 7 to 7, in which the holding device (4) is arranged in a chamber (1) provided with a ventilation opening (2).
14. The device according to any of paragraphs 13. 74 The apparatus according to claim 1, in which the flame hydrolysis burner I is arranged in the chamber (1).
2. The device according to claim 1, wherein the device is arranged in an additional chamber aQ which is connected to chamber (1) via a fin. 17. The device according to claim 4, wherein the flame hydrolysis burner ←υ has two burner heads a arranged side by side or one above the other. ig. Apparatus according to any of claims 1 to 1, wherein the flame hydrolysis burner (11) has a feed branch for material for coloring the flame cone. 19. The device according to claim 1, wherein the holding device (4) is designed to be flexible.